KR101228121B1 - Anchor device and method of using spring - Google Patents

Abstract

PURPOSE: An anchor device using the expansion force of a spring and a construction method thereof are provided to be capable of immediately tensioning a strand after anchoring an anchorage portion, thereby preventing ground failure, and tensioning the strand regardless of the setting time of grout so that construction period is shortened. CONSTITUTION: An anchor device using the expansion force of a spring(200) includes an anchorage portion(100), the spring(200), a compression band(300), a guide pin(350), and a cutting hot wire(310). The anchorage portion(100) is inserted into a borehole(A), and has a shape that two half-cylinders are opposite to each other. The spring(200) is installed to be compressed between the two half-cylinders of the anchorage portion(100), and push the anchorage portion(100) outside. The compression band(300) bands the outer side of the two face-to-face half-cylinders for fixing the anchorage portion(100) not to be opened. The guide pin(350) is coupled to the inner side of the anchorage portion(100) so that the anchorage portion(100) is guided to stably move. The cutting hot wire(310) is connected to the compression band(300), and melts the compression band(300) by heat for cutting. The cutting hot wire(310) is exposed to the outside of a grouting hose(400), which is installed to the borehole(A), through the inside of it with being banded on the compression band(300).

Description

Anchor device and method of using spring expansion force

The present invention is not made by the grout filling the anchor hole in the anchor hole, but after perforation regardless of the state of the ground by increasing the peripheral friction force by the anchoring portion is expanded by the expansion force of the spring at the tip of the anchor It relates to an anchor device and a construction method using the expansion force of the spring to enable the tension immediately after the anchor anchoring unit to prevent the collapse of the ground.

In general, permanent anchor is used for earthquake construction and slope stability, landslide prevention, groundwater prevention of large structures such as buildings or dams, prevention of injuries of underground structures, large structures, etc. It is used to prevent the collapse of excavated walls in underground construction of underground construction, and to prevent the fall of buildings such as earthquakes, large steel towers, retaining walls, etc. Caison for immersion is installed to assist in indentation.

Conventional permanent anchor method generally drills a hole by using a punching machine in rock, ground, etc., which is likely to collapse, and inserts grout hose, a plurality of stranded wires, and a tip anchoring anchor head as a unit through the hole. Then, after the grout is injected and curing of the grout with the tip anchoring head is completed after a certain time, the pressure plate is installed at the other end of the strand and tensioned using a separate hydraulic equipment.

Since the method does not tension the strand during the curing period after the injection of the grout, the role as an anchor cannot be immediately exerted, and thus there is a problem that the working air can not be shortened in the field with a problem that cannot be used quickly in an emergency.

In this way, when the ground is unstable and the tension is required immediately after drilling, it is possible to tension immediately after fixing the anchor fixing unit so as to prevent the ground from collapsing and to shorten the air. By installing the fixing unit to the expansion of the spring installed in the fixing unit in the drilling hole to increase the friction force between the outside of the fixing unit and the anchor hole so as to be able to use the tension of the stranded wire at the same time as the expansion of the fixing unit. It has been registered as a Korean Patent Registration No. 10-0864084, 'Anchor Expansion Pressurized Anchor and Construction Method Using Compression Force of Spring' to prevent the ground from collapsing with grout construction.

The patent is to fix the semi-cylindrical fixing parts facing each other to be fixed with a compression steel wire in a state that the spring installed between the fixing unit is compressed, the compression steel wire is fixed to the fixing ring of the separation steel, the fixing unit The fixing ring is pulled out by the separation steel in the state of being inserted into the drilling hole so that the compression steel wire is released so that the fixing unit is pushed outward by the expansion force of the spring and the outer side of the fixing unit is in close contact with the drilling hole to increase the frictional force. The process of pulling out the fixing ring is not easy.

Republic of Korea Patent Registration 10-0864084 (2008.10.10 registration)

The present invention is to be able to shorten the air while preventing the ground collapse by enabling the tension immediately after anchoring anchorage in the place where the ground is unstable to require the tension immediately perforation. In the anchor end, a fixing unit that expands with the expansion force of the spring is installed to expand the spring installed in the fixing unit at the drilling hole, thereby increasing the frictional force between the outer side of the fixing unit and the drilling hole, thereby holding the spring of the fixing unit. When the fixing ring is pulled out as a separate steel wire, the fixing ring is not easily pulled out, and the fixing part cannot be stably moved when moving to the outside by the expansion force of the spring, and thus it is not possible to increase the frictional force of the main surface of the fixing part.

The present invention is arranged to face the semi-cylindrical fixing unit facing each other, while fixing the compression band in a state that the spring installed between the fixing unit is compressed, fixing the steel wire to be fitted into the fixing unit to the front end of the fixing unit, the fixing The guide band is inserted into the guide pins inserted up and down between the parts to stably open, and the compression band is connected to the heating wire for cutting, and when the cutting is made by heating, the fixing part is expanded by the expansion force of the spring and the main surface friction force inside the drilling hole. To increase the

The present invention is to install a fixing unit receiving the expansion force of the spring at the tip of the anchor, but the fixing unit is to be fixed by winding the compression band, but the compression band is cut by the heat provided from the heating wire for the cutting is made by the expansion force of the spring drilling hole It is to be in close contact with the inner side, and the fixing unit is to be moved while being stably guided by the guide pin when moving by the expansion force of the spring.

The present invention is to be able to be used stably in the place where the ground is unstable and require tension immediately after drilling, install a fixing unit that is expanded by the compressive force of the spring at the tip of the anchor, the fixing unit is fixed by the expansion force of the spring in the drilling hole By increasing the main surface friction force between the outer side of the part and the perforation hole, it is possible to stretch and use the stranded wire simultaneously with the expansion of the fixing unit. It is used to prevent the ground from collapsing, while the tension is achieved regardless of the hardening time of the grout, so that the air can be shortened and the length of the fixing part can be reduced, thereby reducing the construction cost.

In particular, the present invention is to simply cut the compression band by cutting the compression band to fix the spring in the fixing state in the crimped state by cutting hot wire, so that the fixing unit is opened by the expansion force of the spring, it is easy to expand the spring In addition, the fixing unit is moved while being guided to the guide pin, thereby ensuring a stable movement.

1 is a cross-sectional view of the drilled hole
2 is a cross-sectional view of the anchor insertion state of the present invention
3 is a compression band cutting state diagram of the present invention
Figure 4 is a cross-sectional view of the anchor tension state of the present invention
5 is a grout injection state of the present invention
6 is a completed cross-sectional view of the present invention
Figure 7 is a cross-sectional view of the anchor before mounting of the present invention
Figure 8 is a cross-sectional view of the anchor after mounting of the present invention
9 is a cross-sectional and side cross-sectional view of the present invention.

In the present invention, the ground is unstable so that it can be tensioned with the perforation, by using the expansion force of the spring to increase the frictional force while the semi-cylindrical fixing unit is pushed into the perforation hole by the force of the spring to enable tension immediately, but the spring The compression band for fixing the fixing unit in the crimped state is to be cut using a heating wire for cutting.

According to the present invention, after punching the punching hole, the fixing part is pushed into the inside of the punching hole, and the fixing band is pushed outward by the expansion force of the spring by releasing the compression band which fixes the fixing part to each other by using the cutting wire. In this case, the frictional force of the main surface of the fixing unit is increased to prevent the ground from collapsing even when the strand is directly tensioned.

According to the present invention, the semi-cylindrical fixing parts face each other, but springs are installed between the fixing parts to move in the direction in which the fixing parts are pushed together by the expansion force of the springs, and the compression bands are compressed in the state where the fixing parts are pressed against each other. When the compression band is cut by the heating wire for cutting, the fixing band is inserted into the perforation hole and then the power is supplied to the cutting heating wire so that the compression band is cut and the fixing part is opened by the elastic force of the spring. It will be in close contact with the drilling hole.

In this case, guide pins are installed at the front and rear of the fixing unit, and the fixing pins are opened while the fixing unit is opened by the elastic force of the spring. To do that.

Then, by forming the uneven portion in the direction perpendicular to the perforation hole on the outer side of the fixing unit to improve the main surface friction force.

According to the present invention, the anchor anchoring part is inserted immediately after the drilling hole is inserted, and the anchoring part is tensioned together with the grout in the state where the anchoring part is opened by the expansion force of the spring. Effectively used where needed.

The present invention is a process for drilling a hole, and a semi-cylindrical fixing portion to be inserted into the inside of the hole, the compression band is wound around the spring so as to compress the inside of the compression band wound to the cutting process, and Inserting the fusing unit into the perforation hole, but the strand wire coupled to the tip of the fusing unit is exposed to the perforation hole together with the cutting hot wire, and supplying power to the cutting hot wire to cut the compression band so that the fusing unit is outside by the spring. It is made by performing the process of being pressed to the hole while being pushed to, and the process of tensioning and fixing the strand with the grout.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention is provided with a fixing part 100 fitted in the drilling hole (A) and face each other and having a semi-cylindrical shape, but the spring 200 to the inside of the fixing part 100 to the fixing part 100 to the outside To push, the fixing unit 100 is narrowed in the form of pressing the spring 200 and then wound around the outer side of the compression band 300 to secure the fixing unit 100 does not open, the fixing unit 100 By coupling the guide pin 350 to the inside of the fixing unit 100 to move in a direction facing each other or to move in a direction away from each other to move stably along the guide pin 350.

At the tip of the fixing unit 100, the strand 30 is fixed with a wedge 121 so that the strand 30 is positioned outside the perforation hole A, but the wedge 121 has a three-piece cone shape. A circular space is formed inside, and the front end of the fixing unit 100 is fixed by spot welding to fix the streamlined front end portion 120 by spot welding for easy induction into the drilling hole A. The fixing unit 100 is inserted without being caught in the gap or unevenness of the hole A.

The fixing unit 100 of the present invention is to have a semi-cylindrical shape, the spring fixing protrusion 110 is formed at a predetermined interval inward, so that the two fixing unit 100 to face each other to form a cylindrical shape .

The outer side of the fixing unit 100 to form a concave-convex protrusion 101 to increase the friction of the main surface, while the spring fixing protrusion 110 of the fixing unit 100 is fitted with a spring 200, two fixing units ( The spring 200 is compressed by moving 100 to face each other and then the outer side of the fixing unit 100 is wound around the compression band 300 to fix the compression band 300 so as not to cut the compression band 300. It does not open by the force of the spring 200.

Here, the compression band 300 is wound around the cutting heating wire 310 is inserted through the drilling hole (A), when the power is supplied to the cutting heating wire 310 to generate heat to cut the compression band 300 As a result, the fixing unit 100 is moved outward by the expansion force of the spring 200.

The strand 30 to which the wedge 121 is fitted at the tip of the fixing unit 100 is fixed to the wedge 11 at the anchor head 10 supported by the pressure plate 40 by protruding to the outside of the hole A. FIG. It is fixed to, the outer side of the anchor head 10 covers the protective cap 20.

In the present invention, when cutting the compression band 300 to prevent the fixing unit 100 is opened using a cutting hot wire 310, the fixing unit 100 is a puncture hole (A) by the expansion force of the spring 200 Spread out of the uneven portion 101 to support the inner wall of the perforation hole (A), the fixing unit 100 is guided to the guide pin 350 is moved stably.

This invention will be described according to the working order.

First, drill a hole of the required depth (A) using a drilling machine where the ground reinforcement is needed.

Then, the spring 200 is inserted into the spring fixing protrusion 110 of the fixing unit 100 and then the spring 200 is compressed and the fixing unit 100 is brought into contact with each other, and the compression band 300 is fixed in this state. The fixing unit 100 does not open unless the compression band 300 is cut by covering the outside of the unit 100.

At this time, the outer diameter formed by the fixing unit 100 in contact with each other is smaller than the inner diameter of the drilling hole (A) so that the fixing unit 100 to compress the spring 200 by the compression band 300 inside the drilling hole (A). To be fitted with

In addition, when the fixing unit 100 moves in the direction in which the fixing unit 100 is in contact with each other, the fixing unit 100 may be stably fixed by being moved along the guide pin 350.

In the present invention, the fixing line 100 fitted in the drilling hole A is fixed to the strand 30 using the wedge 121 at the tip, and the strand 30 is exposed to the outside of the drilling hole A. At the same time, the cutting hot wire 310 for cutting the compression band 300 as heat is also exposed to the outside of the hole A, and the grouting hose 400 to inject the grout also has the hole A To be fitted to.

At this time, the cutting hot wire 310 may be installed through the interior of the grouting hose 400.

Thus, the anchor consisting of the fixing unit 100 is located inside the drilling hole (A), the strand wire 30, the cutting heating wire 310 and the grouting hose 400 as described above to the outside of the drilling hole (A) After the exposure, the cutting band 300 is heated while the cutting heating wire 310 is heated by supplying electricity to the cutting heating wire 310 using the electric generator 60.

When the compression band 300 is cut in this manner, the fixing unit 100 is pushed to the outside by the expansion force of the spring 200 and the uneven portion 101 of the fixing unit 100 is formed on the inner wall of the hole A. FIG. It will be in close contact.

At this time, the fixing unit 100 is moved along the guide pin 350 when moving, thereby ensuring a stable movement of the fixing unit 100.

That is, when the compression band 300 is cut by supplying electricity to the cutting heating wire 310, the fixing unit 100 is pushed outward by the expansion force of the spring 200, but stably moves on the guide pin 350. The uneven portion 101 of the fixing unit 100 is in close contact with the inner side of the drilling hole (A) to increase the main surface friction force.

In such a state that the fixing unit 100 opens outward and closely adheres to the drilling hole A, the fixing unit 100 remains fixed even when the strand wire 30 is tensioned. The tension line 30 is tensioned by using the hydraulic apparatus 70 in a state that does not fall into the drilling hole (A).

That is, after cutting the compression band 300 as described above, the pressure plate 40 is fixed to the inlet of the drilling hole (A), and then the anchor head 10 is fixed to the strand wire 30 using the wedges 11. The stranded wire 30 is to be fixed in a state where the tension is made, and the reason for the tension of the stranded wire 30 is because the fixing unit 100 is fixed by the main surface frictional force.

When the tension is completed as described above, the grout is injected through the grouting hose 400, and when the grout is injected, the grout is completed to cover the anchor head protective cap 20. So the ground can be protected quickly.

In other words, in the past, the grout is hardened after elapsed time, and thus it was not possible to use it in a place requiring rapid ground stability. However, the present invention simply drills the perforation hole A and inserts the fixing unit 100 therein. By fixing the fixing unit 100 to the tension of the strand 30 is made, it is effectively used where the ground stability in a short time.

Particularly, in the present invention, the compression band 300 is wound around and fixed to the outside of the fixing unit 100 when the spring 200 is compressed and fixed in the fixing unit 100, and the compression band 300 is supplied with electricity to heat. By cutting the heat wire 310 for generating a cutting by expanding the spring 200 of the fixing unit 100 to increase the friction force, and the fixing unit 100 is facing each other or far from each other By moving along the guide pin 350 when moving to ensure a stable movement.

100: fixing unit 110: spring fixing protrusion
200: spring 300: compression band
310: cutting heating wire 350: guide pin
400: Grouting Hose

Claims (2)

In a state in which the semi-cylindrical fixing units 100 face each other, the springs 200 are compressed and the fixing units 100 face each other.
In the state in which the fixing unit 100 is in contact with each other, the compression band 300 is wound on the outside to prevent the fixing unit 100 from being opened, but the fixing unit 100 moves inwardly while being fitted to the guide pin 350. ,
The fixing unit 100 is fixed to the end of the stranded wire 30, the end of the stranded wire 30 to be exposed to the outside of the hole A through the inside of the fixing unit 100,
The cutting heating wire 310 for melting the compression band 300 by heat is exposed to the outside through the inside of the installed grouting hose 400 of the drilling hole (A) in the state wound around the compression band 300,
When the compression band 300 is cut by heat, the fixing plate 100 is opened along the guide pins 350 by the expansion force of the spring 200 to be in close contact with the inner wall of the hole A.
The strand wire 30 connected from the tip portion 120 of the fixing unit 100 is anchored by using the expansion force of the spring, characterized in that the tension is supported by the anchor head (10). Drilling holes in the ground,
The semi-cylindrical fixing parts inserted into the perforation holes are coupled to each other to face each other to form a cylindrical shape. After pressing the fixing parts in a state in which the springs installed between the fixing parts are pressed, the compression band is wound around the fixing part. While the compression band is wound around the heating wire,
Inserting the fixing unit into the boring hole, and the strand wire coupled to the tip is exposed to the boring hole together with the cutting hot wire inserted into the grouting hose;
Supplying power to the cutting hot wire to cut a compression band, the fixing unit being pushed outward by a spring and being in close contact with the perforation hole;
A method of constructing an anchor device using the expansion force of the spring, characterized in that for performing the process of tensioning and fixing the strand wire together with the grout through the grouting hose.

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